This article was suggested to me by a reader called krishna. I realized this was a very important, very common
topic - and quite often so easily overlooked by Linux users all over the world. It stands to logic, really. You
install an operating system - so you expect to be able to uninstall it, undo the installation, remove the
operating system without any trace left to its presence. How do you do that in Linux?

While the idea is a very logical, it is very difficult to answer. This is probably the reason why so many Linux
users never bothered answering it. Not to worry. In this tutorial, I will teach you how you can fully and
safely remove Linux installations from your system and remain with a bootable, working machine. Let's begin.

Install Linux

The first step in getting Linux onto your system is by downloading a distribution of your choice, burning the
.iso image to a CD, booting a computer from the CD, and then installing the distribution. To learn how to do
that, please refer to my myriad Linux reviews and tutorials, all
of which explain in great, rich detail the installation procedure for different distributions. Now let's
examine several test cases.

Single operating system

This is one of the most common solutions that most people will use. A single instance of an operating system is
installed.

Two operating systems in a dual boot configuration

This is another very common scenario. Many new Linux users will be recent converts, all of which have
previously and are currently using Windows. Many will keep their Windows installation and use Linux as a second
or secondary operating system alongside their existing Windows installation. This configuration is known as
dual boot. Please refer to this tutorial to learn how it can be created.

More than two operating systems

This configuration is usually used by power users, who will have several Windows releases and several Linux
distributions and possibly other operating systems installed on their machine. Practically, there is very
little difference between a dual-boot and a multiple-boot system.

Understand how things work

Whichever configuration you choose, it is important to understand how things work. When you install an
operating system, several things are done.

Disk layout is changed

Disks are logically divided into sections called partitions. Operating systems are installed onto these
partitions, when they requires at least one and usually no more than a single partition to install to. To
better understand partitioning, please read the very extensive GParted tutorial.

The partitions are also formatted with one or another filesystem type, which is a logical data structure method
that allows operating systems to interact with the hard disk. For example, NTFS is a Windows filesystem, EXT3
is a Linux filesystem.

A bootloader is installed

When you start your computer, the first thing you see is the BIOS screen. After that, an operating system
boots. But who does it do that? Well, the answer is simple.

Hard disks contain sectors, physical parcels onto which logical data is written in the form of a filesystem
operations. The very first sector is reserved for a tiny bit of code called the bootloader, which contains a
basic set of instructions required to kickstart the operating system boot. The first sector is called the
Master Boot Record (MBR) and it points to the active partition where important files necessary for the booting
of the operating system can be found.

Every operating system installs this or that bootloader. Windows uses the NT Loader (NTLDR). Linux uses the
popular GRUB. Reading my tutorial linked to the left will grant you a much deeper
understanding into how GRUB works. So the boot sequence goes like this:

BIOS looks for the first bootable device (hard disk) and initiates it.

The MBR is read and the relevant partition is chosen.

Boot files on the relevant partitions are loaded into memory and the booting of the system begins.

Boot process

The boot process is accompanied by visual cues that allow the user to interact with the system. The first is
the BIOS menu, where you can change the boot order of your devices, enable and disable peripherals and other
tasks.

Next comes a bootloader menu. On Windows, you do not usually see this menu, as it's hidden from view when
there's only one operating system installed. On Linux, the menu is normally displayed, usually offering several
boot options.

After this stage, you reach your desktop and things are just the way you know them. However, it is important
that you remember the sequence of events that took place.

Operating systems are not self-sustained entities. They require the presence of several factors to be able to
function, namely the hard disk and the partitioning layout, which the operating system uses for permanent
storage of its files, the bootloader that points to the right files and allows the system to boot, the BIOS,
which recognizes and properly initializes the hardware. Take away any one of these and your system will
not boot.

Another very critical thing to remember is that on a machine with no operating system installed, nothing will
happen past the BIOS stage. Since the hard disks are empty, there is no boot sector and no bootloader installed
in it. Therefore, once BIOS initializes the primary boot device, nothing will happen. The boot sequence will
simply fail.

This means that uninstalling an operating system usually means leaving your machine unbootable. It is important for you to remember this. The only way to maintain desktop
functionality is if there's more than a single operating system installed. You remove one or more, but that's
ok, as long as there's at least one instance of an operating system capable of completing the boot sequence.
Now that we understand what uninstalling an operating system means, let's do it.

Uninstall Linux

Operating systems will not work without their boot files or if they are never called by the bootloader.
Therefore, to remove the presence of an operating system, it is enough to dereference is from the bootloader
menu. Alternatively, you can also delete its files or replace them with another operating system. So let's
examine our test cases again.

Single operating system

If you have a single operating system, removing it will render the machine unbootable. So any which way you to
choose to get rid of is perfectly acceptable. This method is true for just about any operating system,
including Windows.

You can delete all the files on the disks; this will render the system unbootable.

You can format the partitions where the operating system is installed.

You can delete the partitions where the operating system is installed or even delete the entire partition
table.

You can uninstall the bootloader.

You can install another operating system on top of the existing one, simply overwriting its files.

Two operating systems in a dual boot configuration

This is the case that really interests us. We will focus on the classic case - Windows and Linux. If you've
read my GRUB tutorial, you will have learned by now that GRUB install itself into the MBR and replaces the
Windows bootloader that existed there.

When you uninstall Linux, which we will do shortly, you remove the GRUB stage2
from the system. GRUB stage2 contains the crucial files that allow it to boot your installed instances of Linux
or transfer the boot control to Windows. This means that by removing Linux, you will also cripple the Windows
installation. It will be intact, but unbootable.

This is because the Linux bootloader will still be present after you remove the Linux installation. To restore
Windows functionality, you will have to install the Windows bootloader again. It will overwrite the GRUB
present in the MBR and you'll be back to being able to use Windows once more. Now, to uninstall Linux, there
are several options:

You can boot from a live CD and delete or format the Linux partitions.

You can boot into Windows and delete or format the Linux partitions.

Now, please note that by default, Windows cannot read data from partitions formatted in Linux filesystems like
EXT3, EXT4, JFS, ReiserFS, and others, however the Disk Management utility can see these partitions. It will
label them as Unknown.

There is a way to allow Windows to be able to read and write to Linux filesystems. Please read this tutorial for more details.

To remove Linux, open the Disk Management utility, select the partition(s) where Linux is installed and then
format them or delete them. If you delete the partitions, the device will have all its space freed. To make
good use of the free space, create a new partition and format it.

But our work is not done. There's the bootloader issue to fix.

Fix the bootloader

This needs to be done on next reboot. What you need to do is restore the Master Boot
Record. There are several tools that can do the trick, I will mention just two:

Super Grub Disk

Super Grub Disk is intended to run from a floppy disk or CD and is
used for system rescue. Most importantly, it can be used to restore boot loaders, including GRUB, LILO and even
Windows boot loader.

Ultimate Boot CD for Windows

This is one of the most important tools a Windows user can have. It is a complete
bootable Windows kernel, packaged with tens of useful utilities in a range of categories. Most importantly,
UBCD4WIN can fix the MBR quickly and easily. If you have a Windows CD, you can also boot from it, go into the
Recovery Console and manually restore the MBR, although this is a procedure for more advanced users. Let's take
a look at each option separately.

Windows Recovery Console

Boot from Window CD. After a while, you'll reach the screen where you have to choose between a setup and the
Recovery Console. Press R to get into the Recovery Console.

Provide the administrator's password when asked:

Then simply type the following command:

fixmbr /r

After that, write quit to exit and reboot. And that's it.

Ultimate Boot CD for Windows

This mighty tool also has the Recovery Console, so you can use it the same way you did before. Or you can boot
into the live desktop and use a number of tools.

Under Programs > Disk Tools > Partition, you will find both MBRWizard and MbrFix.

Super GRUB Disk

Super GRUB Disk also lets you fix the bootloader, be it LILO, GRUB or NTLDR. Just burn the .iso and let it
boot. The main menu is very ugly, but it's quite simple to follow:

That's it. From now on, the principle is the same for three, four or a million operating systems. Just follow
the same train of actions.

Conclusion

Uninstalling operating systems is not a simple thing. It's a complicated issue that requires quite a bit of
knowledge, including the understanding of how computers work, the boot sequence, the hard disk &
partitioning vocabulary, the bootloader.

It comes as no small wonder that so many people avoid this topic. Furthermore, it does hurt many Linux users
that one of their peers should abandon the world of freedom and whatnot and go back to using Microsoft
software.

Regardless what your motives are, this tutorial provides you with the tools necessary to remove Linux
installations from your system and still maintain a bootable, operable machine. I would very much like to
believe that no Linux user would ever take a step back and abandon his/her distribution, but in a real world,
this happens and having the right tools for the task guarantees a painless transition. I hope you've learned
something new. Enjoy.